POSSIBILITY OF BURNING AMERICIUM IN FAST REACTORS

Gulevich A. V.; Eliseev V. A.; Klinov D. A.; Korobeinikova L. V.; Kryachko M. V.; Pershukov V. A.; Troyanov V. M.

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POSSIBILITY OF BURNING AMERICIUM IN FAST REACTORS

机译：在快速反应堆中燃烧americ的可能性

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The possibilities of burning americium from spent nuclear fuel of thermal reactors in the operating BN-800 are examined. It is shown that because of the small fission cross-section in the neutron spectrum of a fast reactor all of the americium cannot be directly converted into fission products. This can be done only by transmutation of americium into plutonium, which must be separated and directed into fuel, where it will burn. In a reactor only 15-20% of the americium is transmuted, and the remaining americium must be returned into the reactor for transmutation. The volume of the recycled americium can be significantly reduced by burning in facilities possessing a moderator (zirconium hydride) and the need for burning it can be eliminated by using plutonium with a high content of the isotope(241)Pu as the fuel of fast reactors, where this isotope fissions efficiently.

机译：检查了在操作BN-800中燃烧Americium的核燃料燃烧核燃料的可能性。结果表明，由于快速反应器中子谱中的裂变横截面，所有亚美洲不能直接转化为裂变产物。这只能通过亚美洲变成钚的嬗变来完成，这必须分开和导向燃料，在那里它将燃烧。在反应器中，只有15-20％的亚美被传播，剩下的琥斯必须返回到反应器中进行嬗变。通过在具有主持人（氢化锆）的设施中燃烧，可以显着降低再生americ的体积，并且可以通过使用具有高含量的同位素（241）PU作为快速反应器的燃料来消除燃烧的需求，这种同位素裂口有效。

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来源
《Atomic Energy》 |2020年第2期|88-94|共7页
作者
Gulevich A. V.; Eliseev V. A.; Klinov D. A.; Korobeinikova L. V.; Kryachko M. V.; Pershukov V. A.; Troyanov V. M.;
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作者单位

State Sci Ctr Russian Federat Leipunskii Inst Phys & Power Engn IPPE Obninsk Russia;

State Sci Ctr Russian Federat Leipunskii Inst Phys & Power Engn IPPE Obninsk Russia;

State Sci Ctr Russian Federat Leipunskii Inst Phys & Power Engn IPPE Obninsk Russia;

State Sci Ctr Russian Federat Leipunskii Inst Phys & Power Engn IPPE Obninsk Russia;

State Sci Ctr Russian Federat Leipunskii Inst Phys & Power Engn IPPE Obninsk Russia;

Rosatom State Nucl Energy Corp Moscow Russia;

Rosenergoatom Concern Moscow Russia;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
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专利

1. Proliferation Resistance of Americium Originating from Spent Irradiated Reactor Fuel of Pressurized Water Reactors, Fast Reactors, and Accelerator-Driven Systems with Different Fuel Cycle Options [J] . G. Kessler Nuclear science and engineering . 2008,第1期

机译：来自加压水反应堆，快堆和加速器驱动系统的乏辐射反应堆燃料的with抗扩散性（具有不同的燃料循环选择）
2. On the influence of the americium isotopic vector on the cooling time of minor actinides bearing blankets in fast reactors [J] . Timothée Kooyman, Laurent Buiron, Gerald Rimpault EPJ Nuclear Sciences & Technologies . 2018,第1期

机译：fast同位素矢量对快堆中含blanket的次act系元素冷却时间的影响
3. Progress with americium in fast reactor research [J] . Nuclear future . 2016,第1期

机译：meric在快速反应堆研究中的进展
4. AN ECONOMIC ANALYSIS OF A LIGHT AND HEAVY WATER MODERATED REACTOR SYNERGY: BURNING AMERICIUM USING RECYCLED URANIUM [C] . Daniel Wojtaszek, Geoffrey Edwards International nuclear fuel cycle conference . 2013

机译：轻型和重水中型反应器协同效应的经济分析：使用回收的铀燃烧
5. Scaling approach and thermal-hydraulic analysis in the reactor cavity cooling system of a high temperature gas -cooled reactor and thermal-jet mixing in a sodium fast reactor. [D] . Omotowa, Olumuyiwa A. 2014

机译：高温气冷反应堆的反应堆腔冷却系统中的结垢方法和热工水力分析，以及钠快速反应堆中的热喷射混合。
6. A disruptive approach to eliminating weapon-grade plutonium – Pu burning in a molten salt fast reactor [O] . Bruno Merk, Dzianis Litskevich 2012

机译：消除武器级p的破坏性方法-Pu在熔融盐快堆中燃烧
7. On the Burning of Plutonium Originating from Light Water Reactor Use in a Fast Molten Salt Reactor—A Neutron Physical Study [O] . Bruno Merk, Dzianis Litskevich 2015

机译：轻水反应堆中钚的燃烧在快速熔盐反应堆中的应用 - 中子物理研究
8. Study of AmO(sub 2)-MgO system for americium target transmutation in fast reactors [R] . Prunier, C. , Casalta, S. , Richter, K. 1994

机译：amO（sub 2）-mgO系统快速反应堆中americ靶嬗变的研究

POSSIBILITY OF BURNING AMERICIUM IN FAST REACTORS

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